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A systematic, readable treatment of organotransition metal chemistry that provides students, teachers, and practicing chemists with an understanding of basic concepts in catalysis and synthetic procedures using transition metal reagents. Covers basic principles of coordination chemistry, organometallic compounds of transition metals and non-transition metals, reactions, industrial applications, use in synthesis, methods of manipulation for air-sensitive compounds, and an overview of related topics. Well illustrated with figures and formulae.
With more than 40% new and revised materials, this second edition offers researchers and students in the field a comprehensive understanding of fundamental molecular properties amidst cutting-edge applications. Including ~70 Example-Boxes and summary notes, questions, exercises, problem sets, and illustrations in each chapter, this publication is also suitable for use as a textbook for advanced undergraduate and graduate students. Novel material is introduced in description of multi-orbital chemical bonding, spectroscopic and magnetic properties, methods of electronic structure calculation, and quantum-classical modeling for organometallic and metallobiochemical systems. This is an excellent reference for chemists, researchers and teachers, and advanced undergraduate and graduate students in inorganic, coordination, and organometallic chemistry.
Two decades have passed since the original discovery of recoilless nuclear gamma resonance by Rudolf Mossbauer; the spectroscopic method based on this resonance effect - referred to as Mossbauer spectroscopy - has developed into a powerful tool in solid-state research. The users are chemists, physicists, biologists, geologists, and scientists from other disciplines, and the spectrum of problems amenable to this method has become extraordinarily broad. In the present volume we have confined ourselves to applications of Mossbauer spectroscopy to the area of transition elements. We hope that the book will be useful not only to non-Mossbauer special ists with problem-Oriented activities in the chemistry and physics of transition elements, but also to those actively working in the field of Mossbauer spectroscopy on systems (compounds as well as alloys) of transition elements. The first five chapters are directed to introducing the reader who is not familiar with the technique to the principles of the recoilless nuclear resonance effect, the hyperfme interactions between nuclei and electronic properties such as electric and magnetic fields, some essential aspects about measurements, and the evaluation of Moss bauer spectra. Chapter 6 deals with the interpretation of Mossbauer parameters of iron compounds. Here we have placed emphasis on the information about the electronic structure, in correlation with quantum chemical methods, because of its importance for chemical bonding and magnetic properties.
Building a foundation with a thorough description of crystalline structures, Solid State Chemistry: An Introduction, Fourth Edition presents a wide range of the synthetic and physical techniques used to prepare and characterize solids. Going beyond basic science, the book explains and analyzes modern techniques and areas of research. The book covers: A range of synthetic and physical techniques used to prepare and characterize solids Bonding, superconductivity, and electrochemical, magnetic, optical, and conductive properties STEM, ionic conductivity, nanotubes and related structures such as graphene, metal organic frameworks, and FeAs superconductors Biological systems in synthesis, solid state modeling, and metamaterials This largely nonmathematical introduction to solid state chemistry includes basic crystallography and structure determination, as well as practical examples of applications and modern developments to offer students the opportunity to apply their knowledge in real-life situations and serve them well throughout their degree course. New in the Fourth Edition Coverage of multiferroics, graphene, and iron-based high temperature superconductors, the techniques available with synchrotron radiation, and metal organic frameworks (MOFs) More space devoted to electron microscopy and preparative methods New discussion of conducting polymers in the expanded section on carbon nanoscience
Chirality in Transition Metal Chemistry is an essential introduction to this increasingly important field for students and researchers in inorganic chemistry. Emphasising applications and real-world examples, the book begins with an overview of chirality, with a discussion of absolute configurations and system descriptors, physical properties of enantiomers, and principles of resolution and preparation of enantiomers. The subsequent chapters deal with the the specifics of chirality as it applies to transition metals. Some reviews of Chirality in Transition Metal Chemistry "...useful to students taking an advanced undergraduate course and particularly to postgraduates and academics undertaking research in the areas of chiral inorganic supramolecular complexes and materials." Chemistry World, August 2009 “...the book offers an extremely exciting new addition to the study of inorganic chemistry, and should be compulsory reading for students entering their final year of undergraduate studies or starting a Ph.D. in structural inorganic chemistry.” Applied Organometallic Chemistry Volume 23, Issue 5, May 2009 “...In conclusion the book gives a wonderful overview of the topic. It is helpful for anyone entering the field through systematic and detailed introduction of basic information. It was time to publish a new and topical text book covering the important aspect of coordination chemistry. It builds bridges between Inorganic, organic and supramolecular chemistry. I can recommend the book to everybody who is interested in the chemistry of chiral coordination compounds .” Angew. chem. Volume 48, Issue 18, April 2009 About the Series Chirality in Transition Metal Chemistry is the latest addition to the Wiley Inorganic Chemistry Advanced Textbook series. This series reflects the pivotal role of modern inorganic and physical chemistry in a whole range of emerging areas such as materials chemistry, green chemistry and bioinorganic chemistry, as well as providing a solid grounding in established areas such as solid state chemistry, coordination chemistry, main group chemistry and physical inorganic chemistry.
Working from basic chemical principles, Metals in Medicine presents a complete and methodical approach to the topic. Introductory chapters discuss important bonding concepts applicable to metallo-drugs and their biological targets, interactions that exist between the agents and substances in the biological milieu, basic pharmacokinetic and pharmacodynamic properties including transport and uptake of drugs by the cells, and methods for measuring efficacy and toxicity of agents. The steps from drug discovery to market place are also briefly outlined and discussed. These chapters lay the groundwork, in order that students can clearly understand how agents work, whatever their subject background. Following this introduction, chapters focus on individual metallo-drugs and agents for treating and detecting disease, their synthesis, structure and general properties, known mechanism of action and important physical and chemical principles that apply. Topics covered include cisplatin; platinum anticancer drugs; ruthenium, titanium, and gallium for treating cancer; gold compounds for treating arthritis, cancer, and other diseases; vanadium, copper, and zinc in medicine; metal complexes for diagnosing disease; and metals in nanomedicine. Throughout the book, “Feature Boxes” expand on features of drugs that are not directly related to studying metals in medicine, for example discovery, medical use, specialist assays, and metals in biology. At the end of the chapters there are specifically designed problems/exercises that apply basic kinetic, thermodynamic and chemical principles to practical problem solving in metals in medicine. Metals in Medicine distils the essence of this important topic for undergraduate and graduate students in chemistry, biochemistry, biology and the related areas of biophysics, pharmacology, and bioengineering, and for researchers in other fields interested in getting a general insight into metals in medicine.

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